Anchor dependency for non-glycerol based cationic lipofectins: mixed bag of regular and anomalous transfection profiles

Singh, Rajkumar Sunil ; Mukherjee, Koushik ; Banerjee, Rajkumar ; Chaudhuri, Arabinda ; Hait, Samik Kumar ; Moulik, Satya Priya ; Ramadas, Yerramsetti ; Vijayalakshmi, Amash ; Rao, Nalam Madhusudhana (2002) Anchor dependency for non-glycerol based cationic lipofectins: mixed bag of regular and anomalous transfection profiles Chemistry: A European Journal, 8 (4). pp. 900-909. ISSN 0947-6539

Full text not available from this repository.

Official URL: http://www3.interscience.wiley.com/journal/9051173...

Related URL: http://dx.doi.org/10.1002/1521-3765(20020215)

Abstract

Although detailed structure-activity, physicochemical and biophysical investigations in probing the anchor influence in liposomal gene delivery have been reported for glycerol-based transfection lipids, the corresponding investigation for non-glycerol based simple monocationic transfection lipids have not yet been undertaken. Towards this end, herein, we delineate our structure-activity and physicochemical approach in deciphering the anchor dependency in liposomal gene delivery using fifteen new structural analogues (lipids 1-15) of recently reported non-glycerol based monocationic transfection lipids. The C14 analogues in both series 1 (lipids 1-6) and series 2 (lipids 7-15) showed maximum efficiency in transfecting COS-1 and CHO cells. However, the C12 analogue of the ether series (lipid 3) exhibited a seemingly anomalous behavior compared with its transfection efficient C10 and C14 analogues (lipids 2 and 4) in being completely inefficient to transfect both COS-1 and CHO cells. The present structure-activity investigation also convincingly demonstrates that enhancement of transfection efficiencies through incorporation of membrane reorganizing unsaturation elements in the hydrophobic anchor of cationic lipids is not universal but cell dependent. The strength of the interaction of lipids 1-15 with DNA was assessed by their ability to exclude ethidium bromide bound to the DNA. Cationic lipids with long hydrophobic tails were found, in general, to be efficient in excluding EtBr from DNA. Gel to liquid crystalline transition temperatures of the lipids was measured by fluorescence anisotropy measurement technique. In general (lipid 2 being an exception), transfection efficient lipids were found to have their mid transition temperatures at or below physiological temperatures (37°C).

Item Type:Article
Source:Copyright of this article belongs to John Wiley and Sons, Inc.
Keywords:Amphiphiles; Lipids; Liposomes; Structure-activity Relationships; Transfection
ID Code:7969
Deposited On:25 Oct 2010 09:36
Last Modified:31 Jan 2011 09:07

Repository Staff Only: item control page